CN109049819B - Composite new material rapid loading and pressing device - Google Patents

Abstract

The invention discloses a device for rapidly charging and pressing a new composite material, which comprises a horizontally arranged support mounting plate, wherein a support mounting cylinder is vertically arranged at the upper end of the support mounting plate, a guide mounting frame is horizontally arranged at the upper end of the support mounting cylinder through a support mounting column which is bilaterally symmetrical and vertically upwards arranged, a guide telescopic extrusion structure is downwards arranged on the guide mounting frame, a guide lifting feeding extrusion module is movably arranged in the support mounting cylinder, the guide lifting feeding extrusion module comprises an annular uniform feeding structure arranged at the middle position outside the support mounting cylinder and a guide lifting structure arranged in the support mounting cylinder, the guide telescopic extrusion structure comprises a lifting extrusion plate which is arranged below the guide mounting frame and is matched with the support mounting cylinder horizontally, the device has the advantages of compact structural design, stable guide lifting, self-locking of threads and self-locking of limiting, the support is safe and stable, the extrusion stroke is short, the efficiency is high, the repeated feeding is rapid, and the like.

Description

Composite new material rapid loading and pressing device

Technical Field

The invention relates to the field of new material manufacturing, in particular to a rapid charging and pressing device for a new composite material.

Background

The history of composite use dates back to the ancient times. Both rice straw or wheat straw reinforced clay, which has been used from ancient times to date, and reinforced concrete, which has been used for centuries, are compounded from two materials. The development of modern high-tech technology cannot be separated from the development of composite materials, and the composite materials play an important role in the development of modern science and technology. The research depth and the application breadth of the composite material and the speed and the scale of the production development of the composite material become one of important marks for measuring the advanced level of the national science and technology, and the currently used equipment for pressing and producing the novel composite material has various problems in the actual use due to the perfect design part, so the development of the novel composite material is restricted.

The invention is provided for solving the problems, and overcomes the problems of more work in the early stage of pressing, low pressing efficiency, difficult rapid and uniform charging, poor pressing continuity and reprocessing performance and the like of the currently used pressing device for the new material conforming due to the adoption of a direct blanking type feeding structure.

Disclosure of Invention

The invention aims to provide a quick charging and pressing device for new composite materials, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a composite new material rapid charging and pressing device comprises a horizontally arranged supporting and mounting plate, wherein a supporting and mounting cylinder is vertically arranged at the upper end of the supporting and mounting plate, a guiding mounting frame is horizontally arranged at the upper end of the supporting and mounting cylinder vertically and upwards through a supporting and mounting column which is bilaterally symmetrical, a guiding telescopic extrusion structure is downwards arranged on the guiding mounting frame, a guiding lifting feeding extrusion module is movably arranged in the supporting and mounting cylinder, the guiding lifting feeding extrusion module comprises an annular uniform feeding structure which is arranged at the middle position outside the supporting and mounting cylinder and a guiding lifting structure which is arranged in the supporting and mounting cylinder, the guiding telescopic extrusion structure comprises a lifting extrusion plate which is arranged below the guiding mounting frame and is matched with the supporting and mounting cylinder horizontally, the annular uniform feeding structure comprises an annular guide cylinder which is horizontally wrapped at the middle position outside the supporting and mounting cylinder, the part that cyclic annular guide cylinder was partly inlayed and was supported the installation section of thick bamboo stretches into and supports the installation section of thick bamboo and be provided with even blanking hole, and the even blanking hole of cyclic annular guide cylinder cooperation is provided with cyclic annular cambered surface blanking net, the lift that direction elevation structure set up including the inside level of support installation section of thick bamboo carries the thing stripper, goes up and down to carry the vertical lift internal thread section of thick bamboo that is provided with in both ends symmetry around the thing stripper, all sets up partly to inlay on the just right support mounting panel of lift internal thread section of thick bamboo and is provided with synchronous elevator motor, the vertical equidistant a plurality of location spacing grooves that are provided with of both ends symmetry about the inboard of supporting the installation section of thick bamboo, the lower extreme bilateral symmetry that goes up.

As a further scheme of the invention: the upper end bilateral symmetry of lift stripper plate is provided with the flexible guide post that runs through the direction mounting bracket vertically upwards, and the equal vertical guide cylinder that is provided with of the flexible guide post of direction mounting bracket cooperation.

As a further scheme of the invention: the vertical horizontal half-mosaic that makes progress of intermediate position of direction mounting bracket is provided with hydraulic tank, and the vertical looks of the lower extreme bilateral symmetry of direction mounting bracket is connected the lift stripper plate downwards and is provided with the hydraulic telescoping post, and hydraulic tank is all connected to the upper end of hydraulic telescoping post and is provided with the high-pressure honeycomb duct, and the high-pressure honeycomb duct all stretches into hydraulic tank and is provided with the hydraulic pump.

As a further scheme of the invention: the heat-conducting extrusion plate is characterized in that a hot-melting auxiliary heat coil is horizontally embedded in the middle of the inner part of the lifting extrusion plate, and a heat-conducting extrusion plate is horizontally and semi-embedded at the lower end of the hot-melting auxiliary heat coil.

As a further scheme of the invention: the inside of the annular material guide cylinder is provided with a plurality of movable mounting columns which are matched with the annular material guide cylinder outwards through a motor mounting cylinder and have equal angles.

As a further scheme of the invention: the inboard that the terminal of removing the erection column all cooperates cyclic annular guide cylinder is provided with the electric drive guide pulley, and the inside of motor installation section of thick bamboo is inlayed and is provided with driving motor, and driving motor's front end is rotated through the motor shaft and is installed the blanking impeller, and the cambered surface gate is installed through the pivot to the right-hand member upper end side of cyclic annular guide cylinder.

As a still further scheme of the invention: the synchronous elevator motor's the vertical ascending lift internal thread section of thick bamboo that runs through of upper end intermediate position is provided with the lift screw post, the equal symmetry of the lift year thing stripper plate of lift screw post both sides is vertical to be provided with direction lift post, supports the equal vertical guide way that sets up of installation section of thick bamboo cooperation direction lift post and lift internal thread section of thick bamboo, and the upper end cooperation heat conduction stripper plate that just goes up and down to carry the thing stripper plate is provided with the extrusion operation groove.

Compared with the prior art, the invention has the beneficial effects that: the problems that the prior pressing device for the new material is more in working in the early stage of pressing, low in pressing efficiency, difficult to quickly and uniformly feed and poor in pressing continuity and reprocessing performance due to the fact that a direct blanking type feeding structure is adopted are solved, and the problems that threads are damaged during pressing and the like due to the fact that a thread reverse self-locking supporting structure is adopted are solved.

Drawings

Fig. 1 is a schematic structural diagram of a rapid charging and pressing device for new composite materials.

Fig. 2 is a schematic structural diagram of a circular uniform feeding structure in a new composite material rapid charging and pressing device.

Fig. 3 is a top view of a guide mounting frame in a rapid loading and pressing device for new composite material.

Fig. 4 is a top view of an elevating load-carrying extrusion plate in the rapid loading and pressing device for new composite material.

Fig. 5 is a schematic structural view of an annular material guide cylinder in a new composite material rapid charging and pressing device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, in the embodiment of the present invention, a new composite material rapid charging and pressing device includes a horizontally disposed support mounting plate 1, a support mounting cylinder 10 is vertically disposed at an upper end of the support mounting plate 1, a guide mounting frame 17 is horizontally disposed at an upper end of the support mounting cylinder 10 through a support mounting post 18 which is bilaterally symmetric and vertically disposed upward, a guide telescopic extrusion structure is disposed downward on the guide mounting frame 17, a guide lifting and feeding extrusion module is movably disposed inside the support mounting cylinder 10, the guide lifting and feeding extrusion module includes an annular uniform feeding structure disposed at a middle position outside the support mounting cylinder 10 and a guide lifting structure disposed inside the support mounting cylinder 10, the guide telescopic extrusion structure includes a lifting extrusion plate 12 which is disposed below the guide mounting frame 17 and horizontally matches the support mounting cylinder 10, a telescopic guide post 16 penetrating through the guide mounting frame 17 is vertically disposed on an upper end of the lifting extrusion plate 12 bilaterally symmetric and vertically upward, and the guiding mounting frame 17 is vertically provided with guiding cylinders in cooperation with the telescopic guiding columns 16, the middle position of the guiding mounting frame 17 is vertically and horizontally half-embedded upwards with a hydraulic oil tank 13, the lower end of the guiding mounting frame 17 is bilaterally and symmetrically vertically connected downwards with a lifting extrusion plate 12 to be provided with a hydraulic telescopic column 15, the upper end of the hydraulic telescopic column 15 is connected with the hydraulic oil tank 13 and is provided with a high-pressure guide pipe, the high-pressure guide pipe extends into the hydraulic oil tank 13 and is provided with a hydraulic pump 14, the inner middle position of the lifting extrusion plate 12 is horizontally embedded with a hot-melt auxiliary heating coil 11, the lower end of the hot-melt auxiliary heating coil 11 is horizontally half-embedded with a heat-conducting extrusion plate 19, the annular uniform feeding structure comprises an annular guiding cylinder 20 horizontally wrapped and arranged at the middle position outside the supporting mounting cylinder 10, and the part of the annular guiding cylinder 20, which is half, the annular guide cylinder 20 is provided with an annular cambered blanking net 24 in cooperation with a uniform blanking hole 25, a plurality of movable mounting columns 22 are arranged inside the annular guide cylinder 20 at equal angles in a manner that the movable mounting columns are matched with the annular guide cylinder 20 outwards through a motor mounting cylinder, the tail ends of the movable mounting columns 22 are respectively provided with an electrically-driven guide wheel in cooperation with the inner side of the annular guide cylinder 20, a driving motor is embedded inside the motor mounting cylinder, the front end of the driving motor is rotatably provided with a blanking impeller 23 through a motor rotating shaft, the upper end side of the right end of the annular guide cylinder 20 is provided with a cambered gate 21 through a rotating shaft, the guide lifting structure comprises a lifting carrying extrusion plate 2 horizontally arranged inside a supporting mounting cylinder 10, lifting internal thread cylinders 5 are symmetrically and vertically arranged at the front end and the rear end of the lifting carrying extrusion plate 2, and a synchronous lifting motor 3 is arranged, the vertical ascending lift internal thread section of thick bamboo 5 that upwards runs through of upper end intermediate position of synchronous elevator motor 3 is provided with lift screw post 4, the lift of 4 sides of lift screw post is carried the equal symmetry of thing stripper plate 2 and is vertically provided with direction lift post 7, supports the equal vertical guide way 6 that sets up of a 10 cooperation direction lift posts 7 and lift internal thread section of thick bamboo 5 of a mounting section of thick bamboo, and goes up and down to carry the upper end cooperation heat conduction stripper plate 19 of thing stripper plate 2 and be provided with the extrusion operation groove, the inboard of supporting the mounting section of thick bamboo 10 is controlled the vertical equidistant a plurality of location spacing grooves 8 that are provided with of both ends symmetry, and the lower extreme bilateral symmetry that goes up and down to carry thing stripper plate 2 is provided with location dwa.

The working principle of the invention is as follows: the raw materials are poured into the annular guide cylinder 20 through the cambered gate 21, then under the action of an electric drive guide wheel, the driving motor drives the blanking impeller 23 to move in the annular guide cylinder 20, the raw materials uniformly fall into the lifting object carrying extrusion plate 2 through the annular cambered blanking net 24, the synchronous lifting motor 3 is started, the lifting internal thread cylinder 5 is matched with the lifting threaded column 4, the lifting object carrying extrusion plate 2 realizes stable lifting operation under the action of a guide lifting column 7, when the lifting object carrying extrusion plate 2 is lifted to the highest position, the positioning limiting groove 8 is matched with the positioning rotating rod 9 to realize reverse limiting, the hydraulic telescopic column 15 acts on the lifting extrusion plate 12 through starting the hydraulic pump 14 to move downwards, the hot melting auxiliary coil 11 enables the heat conduction extrusion plate 19 to be heated, when the lifting extrusion plate 12 is in contact with the lifting object carrying extrusion plate 2 to be extruded, the materials above are quickly heated, under high pressure, the pressing operation is realized, then the hydraulic pump 14 is reversely started, so that the lifting extrusion plate 12 and the heat-conducting extrusion plate 19 ascend to take down the pressed finished product, or the lifting carrying extrusion plate 2 is controlled to descend, other materials are added through the annular guide cylinder 20 for further pressing, and finally the materials ascend to the upper part for taking out, the problems of more work in the early stage of pressing, low pressing efficiency, difficult rapid and uniform charging, poor pressing continuity and reprocessing performance and the like caused by the adoption of a direct blanking type feeding structure are solved, the problems of thread damage and the like in the extrusion process caused by the adoption of a thread reverse self-locking support structure in the current used pressing device for the new materials are solved, and the invention has the advantages of compact structural design, stable guiding lifting, thread self-locking and limiting self-locking matching and safe and stable support, short extrusion stroke, high efficiency, quick repeated feeding and the like.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A quick loading and pressing device for new composite materials comprises a supporting and mounting plate (1) horizontally arranged, a supporting and mounting cylinder (10) is vertically arranged at the upper end of the supporting and mounting cylinder (1), a supporting and mounting column (18) which is vertically and upwards arranged through bilateral symmetry is horizontally arranged at the upper end of the supporting and mounting cylinder (10), a guiding and telescopic extrusion structure is downwards arranged on the guiding and mounting frame (17), a guiding and lifting feeding extrusion module is movably arranged in the supporting and mounting cylinder (10), the guiding and lifting feeding extrusion module comprises an annular uniform feeding structure arranged at the middle position outside the supporting and mounting cylinder (10) and a guiding and lifting structure arranged in the supporting and mounting cylinder (10), and is characterized in that the guiding and telescopic extrusion structure comprises a lifting extrusion plate (12) which is horizontally arranged below the guiding and mounting frame (17) in a matched mode and supports the mounting cylinder (10), the annular uniform feeding structure comprises an annular guide cylinder (20) horizontally wrapped at the middle position of the outer side of a supporting and installing cylinder (10), the annular guide cylinder (20) is half-embedded and part of the supporting and installing cylinder (10) extends into the supporting and installing cylinder (10) and is provided with uniform blanking holes (25), the annular guide cylinder (20) is matched with the uniform blanking holes (25) and is provided with an annular cambered blanking net (24), the guiding and lifting structure comprises a lifting and carrying extrusion plate (2) horizontally arranged in the supporting and installing cylinder (10), lifting and carrying internal thread cylinders (5) are symmetrically and vertically arranged at the front end and the rear end of the lifting and carrying extrusion plate (2), synchronous lifting motors (3) are respectively arranged on the supporting and installing plates (1) just opposite to the lifting and carrying internal thread cylinders (5) in a half-embedded mode, a plurality of positioning limiting grooves (8) are symmetrically and vertically arranged at equal intervals at the left end and the right, the lower end of the lifting loading extrusion plate (2) is provided with a positioning rotating rod (9) in bilateral symmetry through an electric control rotating shaft matched positioning limiting groove (8) which is arranged in a semi-embedded mode.

2. The new composite material rapid charging and pressing device as claimed in claim 1, characterized in that the upper end of the lifting extrusion plate (12) is provided with telescopic guide posts (16) which penetrate through the guide mounting frame (17) in a left-right symmetrical manner and vertically upwards, and the guide mounting frame (17) is provided with guide cylinders vertically matching with the telescopic guide posts (16).

3. The device for pressing the composite new material for rapid charging according to claim 1, wherein the hydraulic oil tank (13) is vertically and horizontally arranged in a semi-embedded manner at the middle position of the guide mounting frame (17), the lower end of the guide mounting frame (17) is bilaterally symmetrical, and is vertically and downwardly connected with the lifting extrusion plate (12) to form the hydraulic telescopic column (15), the hydraulic oil tank (13) is connected with the upper end of the hydraulic telescopic column (15) to form the high-pressure guide pipe, and the hydraulic pump (14) is arranged when the high-pressure guide pipe extends into the hydraulic oil tank (13).

4. The rapid charging and pressing device for new composite material as claimed in claim 1, characterized in that the inner middle position of the lifting extrusion plate (12) is horizontally embedded with a hot-melting auxiliary heating coil (11), and the lower end of the hot-melting auxiliary heating coil (11) is horizontally embedded with a heat-conducting extrusion plate (19).

5. The rapid charging and pressing device for new composite material as claimed in claim 1, characterized in that a plurality of movable mounting columns (22) are arranged inside the annular guide cylinder (20) and are matched with the annular guide cylinder (20) outwards at equal angles through a motor mounting cylinder.

6. The device for pressing the new composite material for rapid charging according to claim 5, wherein the end of the movable mounting column (22) is provided with an electrically driven guide wheel matching with the inner side of the annular material guiding cylinder (20), the motor mounting cylinder is internally embedded with a driving motor, the front end of the driving motor is rotatably provided with a discharging impeller (23) through a motor rotating shaft, and the upper end side of the right end of the annular material guiding cylinder (20) is provided with a cambered gate (21) through a rotating shaft.

7. The new composite material rapid charging and pressing device according to claim 1, characterized in that a lifting screw column (4) is vertically arranged in a middle position of the upper end of the synchronous lifting motor (3) upwards through the lifting internal screw cylinder (5), the lifting carrying extrusion plates (2) on two sides of the lifting screw column (4) are symmetrically and vertically provided with guide lifting columns (7), the supporting installation cylinder (10) is vertically provided with guide grooves (6) in cooperation with the guide lifting columns (7) and the lifting internal screw cylinder (5), and the upper end of the lifting carrying extrusion plates (2) is provided with extrusion operation grooves in cooperation with the heat-conducting extrusion plates (19).

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